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    <creationTime>2011-08-29T11:10:47.610463-07:00</creationTime>
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    <siteInfo>
      <siteName>Little Bear River at Mendon Road near Mendon, Utah</siteName>
      <siteCode network="LBR" siteID="1">USU-LBR-Mendon</siteCode>
      <geoLocation>
        <geogLocation xsi:type="LatLonPointType" srs="EPSG:4269">
          <latitude>41.718473</latitude>
          <longitude>-111.946402</longitude>
        </geogLocation>
        <localSiteXY projectionInformation=" NAD83 / UTM zone 12N">
          <X>421276.323</X>
          <Y>4618952.04</Y>
        </localSiteXY>
      </geoLocation>
      <elevation_m>1345</elevation_m>
      <verticalDatum>NGVD29</verticalDatum>
      <siteProperty name="County">Cache</siteProperty>
      <siteProperty name="State">Utah</siteProperty>
      <siteProperty name="Site Comments">Located below county road bridge at Mendon Road crossing</siteProperty>
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          <variableName>Battery voltage</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Minimum</dataType>
          <generalCategory>Instrumentation</generalCategory>
          <sampleMedium>Other</sampleMedium>
          <unit>
            <unitName>volts</unitName>
            <unitType>Potential Difference</unitType>
            <unitAbbreviation>V</unitAbbreviation>
            <unitCode>168</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
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            <timeSupport>30</timeSupport>
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          <speciation>Not Applicable</speciation>
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          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="4">
          <methodDescription>Battery voltage measured by Campbell Scientific CR206 datalogger.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
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          <definition>Raw data</definition>
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      <series>
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          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
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          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
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            <timeSupport>5</timeSupport>
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          <speciation>Not Applicable</speciation>
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          <beginDateTimeUTC>2005-08-04T18:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="2">
          <methodDescription>Turbidity measured using a Forest Technology Systems DTS-12  turbidity sensor.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
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      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="5">USU5</variableCode>
          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Variance</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
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            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
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        <valueCount>45899</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
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          <beginDateTimeUTC>2005-08-04T18:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
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        <method methodID="2">
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        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
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          <definition>Raw data</definition>
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      </series>
      <series>
        <variable>
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          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Median</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>45899</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
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          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="2">
          <methodDescription>Turbidity measured using a Forest Technology Systems DTS-12  turbidity sensor.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
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      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="7">USU7</variableCode>
          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Best Easy Systematic Estimator</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>45899</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2005-08-04T11:30:00</beginDateTime>
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          <beginDateTimeUTC>2005-08-04T18:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="2">
          <methodDescription>Turbidity measured using a Forest Technology Systems DTS-12  turbidity sensor.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
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      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="8">USU8</variableCode>
          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Minimum</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>45899</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2005-08-04T11:30:00</beginDateTime>
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          <beginDateTimeUTC>2005-08-04T18:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="2">
          <methodDescription>Turbidity measured using a Forest Technology Systems DTS-12  turbidity sensor.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
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      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="9">USU9</variableCode>
          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Maximum</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>45899</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2005-08-04T11:30:00</beginDateTime>
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          <beginDateTimeUTC>2005-08-04T18:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="2">
          <methodDescription>Turbidity measured using a Forest Technology Systems DTS-12  turbidity sensor.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
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        </source>
        <qualityControlLevel qualityControlLevelID="0">
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          <definition>Raw data</definition>
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      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="10">USU10</variableCode>
          <variableName>Temperature</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Continuous</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>degree celcius</unitName>
            <unitType>Temperature</unitType>
            <unitAbbreviation>degC</unitAbbreviation>
            <unitCode>96</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>0</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>45898</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
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          <beginDateTimeUTC>2005-08-04T18:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="1">
          <methodDescription>Water temperature measured using a Forest Technology Systems DTS-12 turbidity sensor.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
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          <definition>Raw data</definition>
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      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="11">USU11</variableCode>
          <variableName>Gage height</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Minimum</dataType>
          <generalCategory>Hydrology</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>international foot</unitName>
            <unitType>Length</unitType>
            <unitAbbreviation>ft</unitAbbreviation>
            <unitCode>48</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
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            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
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          <endDateTimeUTC>2007-08-16T20:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="3">
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        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
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          <definition>Raw data</definition>
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      <series>
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          <variableCode vocabulary="LBR" default="true" variableID="12">USU12</variableCode>
          <variableName>Gage height</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Maximum</dataType>
          <generalCategory>Hydrology</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>international foot</unitName>
            <unitType>Length</unitType>
            <unitAbbreviation>ft</unitAbbreviation>
            <unitCode>48</unitCode>
          </unit>
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          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
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          <speciation>Not Applicable</speciation>
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        <variableTimeInterval xsi:type="TimeIntervalType">
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          <endDateTimeUTC>2007-08-16T20:30:00</endDateTimeUTC>
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        <method methodID="3">
          <methodDescription>Water level measured using a ACData Solutions, Inc. SPXD-600 SDI-12 Pressure Transducer</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
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      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="13">USU13</variableCode>
          <variableName>Gage height</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Hydrology</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>international foot</unitName>
            <unitType>Length</unitType>
            <unitAbbreviation>ft</unitAbbreviation>
            <unitCode>48</unitCode>
          </unit>
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          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
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          <speciation>Not Applicable</speciation>
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        <variableTimeInterval xsi:type="TimeIntervalType">
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      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="32">USU32</variableCode>
          <variableName>Oxygen, dissolved</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>milligrams per liter</unitName>
            <unitType>Concentration</unitType>
            <unitAbbreviation>mg/L</unitAbbreviation>
            <unitCode>199</unitCode>
          </unit>
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          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
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            <timeSupport>30</timeSupport>
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          <speciation>Not Applicable</speciation>
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        <variableTimeInterval xsi:type="TimeIntervalType">
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          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
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          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
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      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="33">USU33</variableCode>
          <variableName>Oxygen, dissolved percent of saturation</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>percent</unitName>
            <unitType>Dimensionless</unitType>
            <unitAbbreviation>%</unitAbbreviation>
            <unitCode>1</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>10373</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-08-16T16:30:00</beginDateTime>
          <endDateTime>2008-03-27T12:30:00</endDateTime>
          <beginDateTimeUTC>2007-08-16T23:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="19">
          <methodDescription>Dissolved oxygen measured using a Hydrolab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="34">USU34</variableCode>
          <variableName>Specific conductance, unfiltered</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>microsiemens per centimeter</unitName>
            <unitType>Electrical Conductivity</unitType>
            <unitAbbreviation>uS/cm</unitAbbreviation>
            <unitCode>192</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>10373</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-08-16T16:30:00</beginDateTime>
          <endDateTime>2008-03-27T12:30:00</endDateTime>
          <beginDateTimeUTC>2007-08-16T23:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="20">
          <methodDescription>Specific conductance measured using a Hydrolab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="35">USU35</variableCode>
          <variableName>pH, unfiltered</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Groundwater</sampleMedium>
          <unit>
            <unitName>dimensionless</unitName>
            <unitType>Dimensionless</unitType>
            <unitAbbreviation>-</unitAbbreviation>
            <unitCode>137</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>10373</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-08-16T16:30:00</beginDateTime>
          <endDateTime>2008-03-27T12:30:00</endDateTime>
          <beginDateTimeUTC>2007-08-16T23:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="21">
          <methodDescription>pH measured using a Hydrolab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="36">USU36</variableCode>
          <variableName>Temperature</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>degree celcius</unitName>
            <unitType>Temperature</unitType>
            <unitAbbreviation>degC</unitAbbreviation>
            <unitCode>96</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>10373</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-08-16T16:30:00</beginDateTime>
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          <beginDateTimeUTC>2007-08-16T23:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="18">
          <methodDescription>Water temperature measured using a Hydrolab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
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      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="37">USU37</variableCode>
          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>10373</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-08-16T16:30:00</beginDateTime>
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          <beginDateTimeUTC>2007-08-16T23:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-03-27T19:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="23">
          <methodDescription>Turbidity measured using a Hydroloab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="1">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous water quality monitoring by Utah State University as part of the USDA CEAP Grant</sourceDescription>
          <citation>Continuous water quality monitoring by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
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          <variableCode vocabulary="LBR" default="true" variableID="39">USU39</variableCode>
          <variableName>Phosphorus, total as P</variableName>
          <valueType>Sample</valueType>
          <dataType>Sporadic</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>milligrams per liter</unitName>
            <unitType>Concentration</unitType>
            <unitAbbreviation>mg/L</unitAbbreviation>
            <unitCode>199</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale>
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>0</timeSupport>
          </timeScale>
          <speciation>P</speciation>
        </variable>
        <valueCount>20</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-10-04T12:00:00</beginDateTime>
          <endDateTime>2008-02-12T15:15:00</endDateTime>
          <beginDateTimeUTC>2007-10-04T19:00:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-02-12T22:15:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="25">
          <methodDescription>Water chemistry grab sample collected by technicians in the field.</methodDescription>
        </method>
        <source sourceID="3">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Water chemistry monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Water chemistry monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="1">
          <qualityControlLevelCode>1</qualityControlLevelCode>
          <definition>Quality controlled data</definition>
        </qualityControlLevel>
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      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="39">USU39</variableCode>
          <variableName>Phosphorus, total as P</variableName>
          <valueType>Sample</valueType>
          <dataType>Sporadic</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>milligrams per liter</unitName>
            <unitType>Concentration</unitType>
            <unitAbbreviation>mg/L</unitAbbreviation>
            <unitCode>199</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale>
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>0</timeSupport>
          </timeScale>
          <speciation>P</speciation>
        </variable>
        <valueCount>141</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2005-04-27T20:00:00</beginDateTime>
          <endDateTime>2007-06-07T14:20:00</endDateTime>
          <beginDateTimeUTC>2005-04-28T03:00:00</beginDateTimeUTC>
          <endDateTimeUTC>2007-06-07T21:20:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="25">
          <methodDescription>Water chemistry grab sample collected by technicians in the field.</methodDescription>
        </method>
        <source sourceID="4">
          <organization>Utah State University Department of Watershed Sciences</organization>
          <sourceDescription>Water chemistry monitoring data collected by Utah State Univeristy as part of the USDA CEAP Grant.</sourceDescription>
          <citation>Water chemistry monitoring data collected by Jeff Horsburgh, David Stevens, Nancy Mesner and others from Utah State University as part of the USDA Conservation Effects Assessment Grant</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="1">
          <qualityControlLevelCode>1</qualityControlLevelCode>
          <definition>Quality controlled data</definition>
        </qualityControlLevel>
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      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="40">USU40</variableCode>
          <variableName>Phosphorus, total as P, filtered</variableName>
          <valueType>Sample</valueType>
          <dataType>Sporadic</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>milligrams per liter</unitName>
            <unitType>Concentration</unitType>
            <unitAbbreviation>mg/L</unitAbbreviation>
            <unitCode>199</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
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            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
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            <timeSupport>0</timeSupport>
          </timeScale>
          <speciation>P</speciation>
        </variable>
        <valueCount>18</valueCount>
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          <beginDateTime>2007-10-04T12:00:00</beginDateTime>
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          <beginDateTimeUTC>2007-10-04T19:00:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-02-12T22:15:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="25">
          <methodDescription>Water chemistry grab sample collected by technicians in the field.</methodDescription>
        </method>
        <source sourceID="3">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Water chemistry monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Water chemistry monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
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          <qualityControlLevelCode>1</qualityControlLevelCode>
          <definition>Quality controlled data</definition>
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      <series>
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          <variableCode vocabulary="LBR" default="true" variableID="40">USU40</variableCode>
          <variableName>Phosphorus, total as P, filtered</variableName>
          <valueType>Sample</valueType>
          <dataType>Sporadic</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>milligrams per liter</unitName>
            <unitType>Concentration</unitType>
            <unitAbbreviation>mg/L</unitAbbreviation>
            <unitCode>199</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale>
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>0</timeSupport>
          </timeScale>
          <speciation>P</speciation>
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          <beginDateTimeUTC>2005-10-28T04:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2007-06-07T21:20:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="25">
          <methodDescription>Water chemistry grab sample collected by technicians in the field.</methodDescription>
        </method>
        <source sourceID="4">
          <organization>Utah State University Department of Watershed Sciences</organization>
          <sourceDescription>Water chemistry monitoring data collected by Utah State Univeristy as part of the USDA CEAP Grant.</sourceDescription>
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          <variableCode vocabulary="LBR" default="true" variableID="41">USU41</variableCode>
          <variableName>Solids, total Suspended</variableName>
          <valueType>Sample</valueType>
          <dataType>Sporadic</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>milligrams per liter</unitName>
            <unitType>Concentration</unitType>
            <unitAbbreviation>mg/L</unitAbbreviation>
            <unitCode>199</unitCode>
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              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
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            <timeSupport>0</timeSupport>
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          <speciation>Not Applicable</speciation>
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        <source sourceID="3">
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          <variableCode vocabulary="LBR" default="true" variableID="41">USU41</variableCode>
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          <valueType>Sample</valueType>
          <dataType>Sporadic</dataType>
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  <site>
    <siteInfo>
      <siteName>Little Bear River near Wellsville, Utah</siteName>
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        <geogLocation xsi:type="LatLonPointType" srs="EPSG:4269">
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            <unitName>volts</unitName>
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            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="2">
          <methodDescription>Turbidity measured using a Forest Technology Systems DTS-12  turbidity sensor.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="5">USU5</variableCode>
          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Variance</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="2">
          <methodDescription>Turbidity measured using a Forest Technology Systems DTS-12  turbidity sensor.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="6">USU6</variableCode>
          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Median</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="23">
          <methodDescription>Turbidity measured using a Hydroloab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="7">USU7</variableCode>
          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Best Easy Systematic Estimator</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="2">
          <methodDescription>Turbidity measured using a Forest Technology Systems DTS-12  turbidity sensor.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="8">USU8</variableCode>
          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Minimum</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="2">
          <methodDescription>Turbidity measured using a Forest Technology Systems DTS-12  turbidity sensor.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="9">USU9</variableCode>
          <variableName>Turbidity</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Maximum</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>nephelometric turbidity units</unitName>
            <unitType>Turbidity</unitType>
            <unitAbbreviation>NTU</unitAbbreviation>
            <unitCode>221</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>5</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="2">
          <methodDescription>Turbidity measured using a Forest Technology Systems DTS-12  turbidity sensor.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="10">USU10</variableCode>
          <variableName>Temperature</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Continuous</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>degree celcius</unitName>
            <unitType>Temperature</unitType>
            <unitAbbreviation>degC</unitAbbreviation>
            <unitCode>96</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>0</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="18">
          <methodDescription>Water temperature measured using a Hydrolab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="13">USU13</variableCode>
          <variableName>Gage height</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Hydrology</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>international foot</unitName>
            <unitType>Length</unitType>
            <unitAbbreviation>ft</unitAbbreviation>
            <unitCode>48</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="3">
          <methodDescription>Water level measured using a ACData Solutions, Inc. SPXD-600 SDI-12 Pressure Transducer</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="32">USU32</variableCode>
          <variableName>Oxygen, dissolved</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>milligrams per liter</unitName>
            <unitType>Concentration</unitType>
            <unitAbbreviation>mg/L</unitAbbreviation>
            <unitCode>199</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="19">
          <methodDescription>Dissolved oxygen measured using a Hydrolab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="33">USU33</variableCode>
          <variableName>Oxygen, dissolved percent of saturation</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>percent</unitName>
            <unitType>Dimensionless</unitType>
            <unitAbbreviation>%</unitAbbreviation>
            <unitCode>1</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="19">
          <methodDescription>Dissolved oxygen measured using a Hydrolab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="34">USU34</variableCode>
          <variableName>Specific conductance, unfiltered</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>microsiemens per centimeter</unitName>
            <unitType>Electrical Conductivity</unitType>
            <unitAbbreviation>uS/cm</unitAbbreviation>
            <unitCode>192</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="20">
          <methodDescription>Specific conductance measured using a Hydrolab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="35">USU35</variableCode>
          <variableName>pH, unfiltered</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Groundwater</sampleMedium>
          <unit>
            <unitName>dimensionless</unitName>
            <unitType>Dimensionless</unitType>
            <unitAbbreviation>-</unitAbbreviation>
            <unitCode>137</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="21">
          <methodDescription>pH measured using a Hydrolab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="0">
          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="36">USU36</variableCode>
          <variableName>Temperature</variableName>
          <valueType>Field Observation</valueType>
          <dataType>Average</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>degree celcius</unitName>
            <unitType>Temperature</unitType>
            <unitAbbreviation>degC</unitAbbreviation>
            <unitCode>96</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale isRegular="true">
            <unit>
              <unitName>minute</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>min</unitAbbreviation>
              <unitCode>102</unitCode>
            </unit>
            <timeSupport>30</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>7309</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-05T14:30:00</beginDateTime>
          <endDateTime>2008-04-05T20:30:00</endDateTime>
          <beginDateTimeUTC>2007-11-05T21:30:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-04-06T03:30:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="18">
          <methodDescription>Water temperature measured using a Hydrolab MS5 Water Quality Multiprobe.</methodDescription>
        </method>
        <source sourceID="2">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Continuous monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Continuous monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
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          <qualityControlLevelCode>0</qualityControlLevelCode>
          <definition>Raw data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="39">USU39</variableCode>
          <variableName>Phosphorus, total as P</variableName>
          <valueType>Sample</valueType>
          <dataType>Sporadic</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>milligrams per liter</unitName>
            <unitType>Concentration</unitType>
            <unitAbbreviation>mg/L</unitAbbreviation>
            <unitCode>199</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale>
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>0</timeSupport>
          </timeScale>
          <speciation>P</speciation>
        </variable>
        <valueCount>12</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
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          <endDateTime>2008-02-12T14:40:00</endDateTime>
          <beginDateTimeUTC>2007-11-07T20:00:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-02-12T21:40:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="25">
          <methodDescription>Water chemistry grab sample collected by technicians in the field.</methodDescription>
        </method>
        <source sourceID="3">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Water chemistry monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Water chemistry monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="1">
          <qualityControlLevelCode>1</qualityControlLevelCode>
          <definition>Quality controlled data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="40">USU40</variableCode>
          <variableName>Phosphorus, total as P, filtered</variableName>
          <valueType>Sample</valueType>
          <dataType>Sporadic</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>milligrams per liter</unitName>
            <unitType>Concentration</unitType>
            <unitAbbreviation>mg/L</unitAbbreviation>
            <unitCode>199</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale>
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>0</timeSupport>
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          <speciation>P</speciation>
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        <variableTimeInterval xsi:type="TimeIntervalType">
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          <beginDateTimeUTC>2007-11-07T20:00:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-02-12T21:40:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="25">
          <methodDescription>Water chemistry grab sample collected by technicians in the field.</methodDescription>
        </method>
        <source sourceID="3">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Water chemistry monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Water chemistry monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="1">
          <qualityControlLevelCode>1</qualityControlLevelCode>
          <definition>Quality controlled data</definition>
        </qualityControlLevel>
      </series>
      <series>
        <variable>
          <variableCode vocabulary="LBR" default="true" variableID="41">USU41</variableCode>
          <variableName>Solids, total Suspended</variableName>
          <valueType>Sample</valueType>
          <dataType>Sporadic</dataType>
          <generalCategory>Water Quality</generalCategory>
          <sampleMedium>Surface Water</sampleMedium>
          <unit>
            <unitName>milligrams per liter</unitName>
            <unitType>Concentration</unitType>
            <unitAbbreviation>mg/L</unitAbbreviation>
            <unitCode>199</unitCode>
          </unit>
          <noDataValue>-9999</noDataValue>
          <timeScale>
            <unit>
              <unitName>second</unitName>
              <unitType>Time</unitType>
              <unitAbbreviation>s</unitAbbreviation>
              <unitCode>100</unitCode>
            </unit>
            <timeSupport>0</timeSupport>
          </timeScale>
          <speciation>Not Applicable</speciation>
        </variable>
        <valueCount>9</valueCount>
        <variableTimeInterval xsi:type="TimeIntervalType">
          <beginDateTime>2007-11-07T13:00:00</beginDateTime>
          <endDateTime>2008-02-12T14:40:00</endDateTime>
          <beginDateTimeUTC>2007-11-07T20:00:00</beginDateTimeUTC>
          <endDateTimeUTC>2008-02-12T21:40:00</endDateTimeUTC>
        </variableTimeInterval>
        <method methodID="25">
          <methodDescription>Water chemistry grab sample collected by technicians in the field.</methodDescription>
        </method>
        <source sourceID="3">
          <organization>Utah State University Utah Water Research Laboratory</organization>
          <sourceDescription>Water chemistry monitoring data collected by Utah State University as part of a National Science Foundation funded test bed project.</sourceDescription>
          <citation>Water chemistry monitoring data collected by Jeff Horsburgh, David Stevens, David Tarboton, Nancy Mesner, Amber Spackman, and Sandra Gurrero at Utah State University as part of a National Science Foundation funded WATERS Network Test Bed project.</citation>
        </source>
        <qualityControlLevel qualityControlLevelID="1">
          <qualityControlLevelCode>1</qualityControlLevelCode>
          <definition>Quality controlled data</definition>
        </qualityControlLevel>
      </series>
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